src/share/vm/runtime/park.cpp - platform/external/jetbrains/jdk8u_hotspot - Git at Google

 /*
  * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  *
  */

 #include "precompiled.hpp"
 #include "runtime/thread.hpp"


 // Lifecycle management for TSM ParkEvents.
 // ParkEvents are type-stable (TSM).
 // In our particular implementation they happen to be immortal.
 //
 // We manage concurrency on the FreeList with a CAS-based
 // detach-modify-reattach idiom that avoids the ABA problems
 // that would otherwise be present in a simple CAS-based
 // push-pop implementation.   (push-one and pop-all)
 //
 // Caveat: Allocate() and Release() may be called from threads
 // other than the thread associated with the Event!
 // If we need to call Allocate() when running as the thread in
 // question then look for the PD calls to initialize native TLS.
 // Native TLS (Win32/Linux/Solaris) can only be initialized or
 // accessed by the associated thread.
 // See also pd_initialize().
 //
 // Note that we could defer associating a ParkEvent with a thread
 // until the 1st time the thread calls park().  unpark() calls to
 // an unprovisioned thread would be ignored.  The first park() call
 // for a thread would allocate and associate a ParkEvent and return
 // immediately.

 volatile int ParkEvent::ListLock = 0 ;
 ParkEvent * volatile ParkEvent::FreeList = NULL ;

 ParkEvent * ParkEvent::Allocate (Thread * t) {
   // In rare cases -- JVM_RawMonitor* operations -- we can find t == null.
   ParkEvent * ev ;

   // Start by trying to recycle an existing but unassociated
   // ParkEvent from the global free list.
   // Using a spin lock since we are part of the mutex impl.
   // 8028280: using concurrent free list without memory management can leak
   // pretty badly it turns out.
   Thread::SpinAcquire(&ListLock, "ParkEventFreeListAllocate");
   {
     ev = FreeList;
     if (ev != NULL) {
       FreeList = ev->FreeNext;
     }
   }
   Thread::SpinRelease(&ListLock);

   if (ev != NULL) {
     guarantee (ev->AssociatedWith == NULL, "invariant") ;
   } else {
     // Do this the hard way -- materialize a new ParkEvent.
     ev = new ParkEvent () ;
     guarantee ((intptr_t(ev) & 0xFF) == 0, "invariant") ;
   }
   ev->reset() ;                     // courtesy to caller
   ev->AssociatedWith = t ;          // Associate ev with t
   ev->FreeNext       = NULL ;
   return ev ;
 }

 void ParkEvent::Release (ParkEvent * ev) {
   if (ev == NULL) return ;
   guarantee (ev->FreeNext == NULL      , "invariant") ;
   ev->AssociatedWith = NULL ;
   // Note that if we didn't have the TSM/immortal constraint, then
   // when reattaching we could trim the list.
   Thread::SpinAcquire(&ListLock, "ParkEventFreeListRelease");
   {
     ev->FreeNext = FreeList;
     FreeList = ev;
   }
   Thread::SpinRelease(&ListLock);
 }

 // Override operator new and delete so we can ensure that the
 // least significant byte of ParkEvent addresses is 0.
 // Beware that excessive address alignment is undesirable
 // as it can result in D$ index usage imbalance as
 // well as bank access imbalance on Niagara-like platforms,
 // although Niagara's hash function should help.

 void * ParkEvent::operator new (size_t sz) throw() {
   return (void *) ((intptr_t (AllocateHeap(sz + 256, mtInternal, CALLER_PC)) + 256) & -256) ;
 }

 void ParkEvent::operator delete (void * a) {
   // ParkEvents are type-stable and immortal ...
   ShouldNotReachHere();
 }


 // 6399321 As a temporary measure we copied & modified the ParkEvent::
 // allocate() and release() code for use by Parkers.  The Parker:: forms
 // will eventually be removed as we consolide and shift over to ParkEvents
 // for both builtin synchronization and JSR166 operations.

 volatile int Parker::ListLock = 0 ;
 Parker * volatile Parker::FreeList = NULL ;

 Parker * Parker::Allocate (JavaThread * t) {
   guarantee (t != NULL, "invariant") ;
   Parker * p ;

   // Start by trying to recycle an existing but unassociated
   // Parker from the global free list.
   // 8028280: using concurrent free list without memory management can leak
   // pretty badly it turns out.
   Thread::SpinAcquire(&ListLock, "ParkerFreeListAllocate");
   {
     p = FreeList;
     if (p != NULL) {
       FreeList = p->FreeNext;
     }
   }
   Thread::SpinRelease(&ListLock);

   if (p != NULL) {
     guarantee (p->AssociatedWith == NULL, "invariant") ;
   } else {
     // Do this the hard way -- materialize a new Parker..
     p = new Parker() ;
   }
   p->AssociatedWith = t ;          // Associate p with t
   p->FreeNext       = NULL ;
   return p ;
 }


 void Parker::Release (Parker * p) {
   if (p == NULL) return ;
   guarantee (p->AssociatedWith != NULL, "invariant") ;
   guarantee (p->FreeNext == NULL      , "invariant") ;
   p->AssociatedWith = NULL ;

   Thread::SpinAcquire(&ListLock, "ParkerFreeListRelease");
   {
     p->FreeNext = FreeList;
     FreeList = p;
   }
   Thread::SpinRelease(&ListLock);
 }
	/*
	* Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*
	*/

	#include "precompiled.hpp"
	#include "runtime/thread.hpp"



	// Lifecycle management for TSM ParkEvents.
	// ParkEvents are type-stable (TSM).
	// In our particular implementation they happen to be immortal.
	//
	// We manage concurrency on the FreeList with a CAS-based
	// detach-modify-reattach idiom that avoids the ABA problems
	// that would otherwise be present in a simple CAS-based
	// push-pop implementation. (push-one and pop-all)
	//
	// Caveat: Allocate() and Release() may be called from threads
	// other than the thread associated with the Event!
	// If we need to call Allocate() when running as the thread in
	// question then look for the PD calls to initialize native TLS.
	// Native TLS (Win32/Linux/Solaris) can only be initialized or
	// accessed by the associated thread.
	// See also pd_initialize().
	//
	// Note that we could defer associating a ParkEvent with a thread
	// until the 1st time the thread calls park(). unpark() calls to
	// an unprovisioned thread would be ignored. The first park() call
	// for a thread would allocate and associate a ParkEvent and return
	// immediately.

	volatile int ParkEvent::ListLock = 0 ;
	ParkEvent * volatile ParkEvent::FreeList = NULL ;

	ParkEvent * ParkEvent::Allocate (Thread * t) {
	// In rare cases -- JVM_RawMonitor* operations -- we can find t == null.
	ParkEvent * ev ;

	// Start by trying to recycle an existing but unassociated
	// ParkEvent from the global free list.
	// Using a spin lock since we are part of the mutex impl.
	// 8028280: using concurrent free list without memory management can leak
	// pretty badly it turns out.
	Thread::SpinAcquire(&ListLock, "ParkEventFreeListAllocate");
	{
	ev = FreeList;
	if (ev != NULL) {
	FreeList = ev->FreeNext;
	}
	}
	Thread::SpinRelease(&ListLock);

	if (ev != NULL) {
	guarantee (ev->AssociatedWith == NULL, "invariant") ;
	} else {
	// Do this the hard way -- materialize a new ParkEvent.
	ev = new ParkEvent () ;
	guarantee ((intptr_t(ev) & 0xFF) == 0, "invariant") ;
	}
	ev->reset() ; // courtesy to caller
	ev->AssociatedWith = t ; // Associate ev with t
	ev->FreeNext = NULL ;
	return ev ;
	}

	void ParkEvent::Release (ParkEvent * ev) {
	if (ev == NULL) return ;
	guarantee (ev->FreeNext == NULL , "invariant") ;
	ev->AssociatedWith = NULL ;
	// Note that if we didn't have the TSM/immortal constraint, then
	// when reattaching we could trim the list.
	Thread::SpinAcquire(&ListLock, "ParkEventFreeListRelease");
	{
	ev->FreeNext = FreeList;
	FreeList = ev;
	}
	Thread::SpinRelease(&ListLock);
	}

	// Override operator new and delete so we can ensure that the
	// least significant byte of ParkEvent addresses is 0.
	// Beware that excessive address alignment is undesirable
	// as it can result in D$ index usage imbalance as
	// well as bank access imbalance on Niagara-like platforms,
	// although Niagara's hash function should help.

	void * ParkEvent::operator new (size_t sz) throw() {
	return (void *) ((intptr_t (AllocateHeap(sz + 256, mtInternal, CALLER_PC)) + 256) & -256) ;
	}

	void ParkEvent::operator delete (void * a) {
	// ParkEvents are type-stable and immortal ...
	ShouldNotReachHere();
	}


	// 6399321 As a temporary measure we copied & modified the ParkEvent::
	// allocate() and release() code for use by Parkers. The Parker:: forms
	// will eventually be removed as we consolide and shift over to ParkEvents
	// for both builtin synchronization and JSR166 operations.

	volatile int Parker::ListLock = 0 ;
	Parker * volatile Parker::FreeList = NULL ;

	Parker * Parker::Allocate (JavaThread * t) {
	guarantee (t != NULL, "invariant") ;
	Parker * p ;

	// Start by trying to recycle an existing but unassociated
	// Parker from the global free list.
	// 8028280: using concurrent free list without memory management can leak
	// pretty badly it turns out.
	Thread::SpinAcquire(&ListLock, "ParkerFreeListAllocate");
	{
	p = FreeList;
	if (p != NULL) {
	FreeList = p->FreeNext;
	}
	}
	Thread::SpinRelease(&ListLock);

	if (p != NULL) {
	guarantee (p->AssociatedWith == NULL, "invariant") ;
	} else {
	// Do this the hard way -- materialize a new Parker..
	p = new Parker() ;
	}
	p->AssociatedWith = t ; // Associate p with t
	p->FreeNext = NULL ;
	return p ;
	}


	void Parker::Release (Parker * p) {
	if (p == NULL) return ;
	guarantee (p->AssociatedWith != NULL, "invariant") ;
	guarantee (p->FreeNext == NULL , "invariant") ;
	p->AssociatedWith = NULL ;

	Thread::SpinAcquire(&ListLock, "ParkerFreeListRelease");
	{
	p->FreeNext = FreeList;
	FreeList = p;
	}
	Thread::SpinRelease(&ListLock);
	}